Your search keyword '"Carreras Mascaro, Ana"' showing total 15 results

1. LRP10 and α-synuclein transmission in Lewy body diseases

Author

Carreras Mascaro, Ana, Grochowska, Martyna M., Boumeester, Valerie, Dits, Natasja F. J., Bilgiҫ, Ece Naz, Breedveld, Guido J., Vergouw, Leonie, de Jong, Frank Jan, van Royen, Martin E., Bonifati, Vincenzo, and Mandemakers, Wim

Published

2024

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Author

Carreras Mascaro, Ana, Grochowska, Martyna M., Boumeester, Valerie, Dits, Natasja F.J., Breedveld, Guido J., Vergouw, Leonie, de Jong, Frank Jan, van Royen, Martin E., Bonifati, Vincenzo, Mandemakers, Wim, Carreras Mascaro, Ana, Grochowska, Martyna M., Boumeester, Valerie, Dits, Natasja F.J., Breedveld, Guido J., Vergouw, Leonie, de Jong, Frank Jan, van Royen, Martin E., Bonifati, Vincenzo, and Mandemakers, Wim

Published

2024

3. Functional studies of genetic forms of lewy body diseases

Author

Carreras Mascaro, Ana and Carreras Mascaro, Ana

Abstract

Lewy body diseases (LBDs) and other forms of parkinsonism are fatal neurodegenerative disorders that affect millions of people worldwide, and they remain uncurable. Even though a long way remains ahead, the identification and functional study of genetic forms of LBDs has greatly expanded our knowledge on the molecular mechanisms underlying the neurodegenerative process, providing promising targets for therapeutic intervention. The aim of this thesis is to improve our understanding of the pathogenesis of LBDs and related disorders by investigating novel rare genetic forms of LBDs involving the LRP10 and PTPA genes. In chapter 1, we introduced LBDs and some of the already described genetic factors, including LRP10, and highlighted how these genetic factors can lead to disturbed glial cell function in LBD. In chapters 2-5, we aimed to improve our knowledge on the molecular function of the LRP10 protein, investigate whether LRP10 might have a role in LBD pathogenesis, and study the effect of patient-derived variants on LRP10 protein function. In chapter 6, we identified two bi-allelic missense variants in PTPA, which encodes a major PP2A activator, in two families with early-onset parkinsonism and intellectual disability. Furthermore, we show that these variants present decreased mRNA and protein levels and lead to impaired PP2A activation, and ptpa knock-down in Drosophila neurons induces a levodopa-reversible locomotion impairment. Chapter 7 includes a discussion of our main findings in the context of recent literature, in addition to prospective research directions for areas that are incompletely understood.

Published

2024

4. LRP10 genetic variants in familial Parkinson's disease and dementia with Lewy bodies: a genome-wide linkage and sequencing study

Author

Bonifati, Vincenzo, Quadri, Marialuisa, Mandemakers, Wim, Kievit, Anneke J.A., Boon, Agnita J.W., Rood, Janneke P.A, Vergouw, Leonie J.M., de Jong, Frank J., van Swieten, John C., Mattace-Raso, Francesco U.S., Leenders, Klaus L., Ferreira, Joaquim J., Correia Guedes, Leonor, Puschmann, Andreas, Ygland, Emil, Nilsson, Christer, Chien, Hsin F., Barbosa, Egberto, Bannach Jardim, Laura, Rieder, Carlos R.M., Chang, Hsiu-Chen, Lu, Chin-Song, Wu-Chou, Yah-Huei, Yeh, Tu-Hsueh, Lopiano, Leonardo, Tassorelli, Cristina, Pacchetti, Claudio, Riboldazzi, Giulio, Bono, Giorgio, Comi, Cristoforo, Padovani, Alessandro, Borroni, Barbara, Raudino, Francesco, Fincati, Emiliana, Tinazzi, Michele, Bonizzato, Alberto, Ferracci, Carlo, Dalla Libera, Alessio, Abbruzzese, Giovanni, Cortelli, Pietro, Capellari, Sabina, Marconi, Roberto, Guidi, Marco, Onofrj, Marco, Thomas, Astrid, Vanacore, Nicola, Meco, Giuseppe, Fabrizio, Edito, Fabbrini, Giovanni, Berardelli, Alfredo, Stocchi, Fabrizio, Vacca, Laura, Barone, Paolo, Picillo, Marina, De Michele, Giuseppe, Criscuolo, Chiara, De Mari, Michele, Dell'Aquila, Claudia, Iliceto, Gianni, Toni, Vincenzo, Trianni, Giorgio, Gagliardi, Monica, Annesi, Grazia, Quattrone, Aldo, Saddi, Valeria, Cossu, Gianni, Melis, Maurizio, Grochowska, Martyna M, Masius, Roy, Geut, Hanneke, Breedveld, Guido J, Kuipers, Demy, Minneboo, Michelle, Vergouw, Leonie J M, Carreras Mascaro, Ana, Yonova-Doing, Ekaterina, Simons, Erik, Zhao, Tianna, Di Fonzo, Alessio B, Parchi, Piero, Melis, Marta, Brouwer, Rutger W W, Heijsman, Daphne, Ingrassia, Angela M T, Calandra Buonaura, Giovanna, Rood, Janneke P, Rozemuller, Annemieke J, Sarchioto, Marianna, Fen Chien, Hsin, Olgiati, Simone, Boon, Agnita J W, Hoogers, Susanne E, Ghazvini, Mehrnaz, IJpma, Arne S, van IJcken, Wilfred F J, Nicholl, David J, Kievit, Anneke J, Majoor-Krakauer, Danielle, van Swieten, John C, de Jong, Frank J, Ferreira, Joaquim J, Cossu, Giovanni, and van de Berg, Wilma D J

Published

2018

5. PTPA variants and impaired PP2A activity in early-onset parkinsonism with intellectual disability

Author

Fevga, Christina, Tesson, Christelle, Carreras Mascaro, Ana, Courtin, Thomas, Van Coller, Riaan, Sakka, Salma, Ferraro, Federico, Farhat, Nouha, Bardien, Soraya, Damak, Mariem, Carr, Jonathan, Ferrien, Melanie, Boumeester, Valerie, Hundscheid, Jasmijn, Grillenzoni, Nicola, Kessissoglou, Irini A., Kuipers, Demy J.S., Quadri, Marialuisa, Agid, Yves, Anheim, Mathieu, Borg, Michel, Brice, Alexis, Broussolle, Emmanuel, Corvol, Jean Christophe, Damier, Philippe, Defebvre, Luc, Dürr, Alexandra, Durif, Franck, Houeto, Jean Luc, Krack, Paul, Klebe, Stephan, Lesage, Suzanne, Lohmann, Ebba, Martinez, Maria, Mangone, Graziella, Mariani, Louise Laure, Pollak, Pierre, Rascol, Olivier, Tison, François, Tranchant, Christine, Verin, Marc, Viallet, François, Vidailhet, Marie, Emre, Murat, Hanagasi, Hasmet, Bilgic, Basar, Lu, Bedia Marangozog, Benmahdjoub, Mustapha, Arezki, Mohammed, Bouchetara, Sofiane A., Benhassine, Traki, Tazir, Meriem, Djebara, Mouna Ben, Gouider, Riadh, Romdhan, Sawssan Ben, Mhiri, Chokri, Bouhouche, Ahmed, Bonifati, Vincenzo, Mandemakers, Wim, Kievit, Anneke J.A., Boon, Agnita J.W., Ferreira, Joaquim J., Guedes, Leonor Correia, Hanagasi, Hasmet A., Tufekcioglu, Zeynep, Elibol, Bulent, Dog.u, Okan, Gultekin, Murat, Chien, Hsin F., Barbosa, Egberto, Jardim, Laura Bannach, Rieder, Carlos R.M., Chang, Hsiu Chen, Lu, Chin Song, Wu-Chou, Yah Huei, Yeh, Tu Hsueh, Lopiano, Leonardo, Tassorelli, Cristina, Pacchetti, Claudio, Comi, Cristoforo, Raudino, Francesco, Bertolasi, Laura, Tinazzi, Michele, Bonizzato, Alberto, Ferracci, Carlo, Marconi, Roberto, Guidi, Marco, Onofrj, Marco, Thomas, Astrid, Vanacore, Nicola, Meco, Giuseppe, Fabrizio, Edito, Fabbrini, Giovanni, Berardelli, Alfredo, Stocchi, Fabrizio, Vacca, Laura, Barone, Paolo, Picillo, Marina, De Michele, Giuseppe, Criscuolo, Chiara, De Mari, Michele, Dell'aquila, Claudia, Iliceto, Giovanni, Toni, Vincenzo, Trianni, Giorgio, Saddi, Valeria, Cossu, Gianni, Melis, Maurizio, Hassan, Bassem A., Breedveld, Guido J., Erasmus University Medical Center [Rotterdam] (Erasmus MC), Institut du Cerveau = Paris Brain Institute (ICM), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Service de Génétique médicale [CHU Pitié-Salpêtrière], CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Faculty of Health Sciences [Pretoria], University of Pretoria [South Africa], Hopital Habib Bourguiba - Habib Bourguiba Hospital [Sfax], Stellenbosch University, Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Motivation, cerveau et comportement = Motivation, Brain and Behavior [ICM Paris] (MBB), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Tesson, Christelle, Clinical Genetics, and Neurology

Subjects

[SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, intellectual disability, PTPA, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], PPP2R4, [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Neurology (clinical), [SDV.GEN.GH] Life Sciences [q-bio]/Genetics/Human genetics, parkinsonism, PP2A

Abstract

The protein phosphatase 2A complex (PP2A), the major Ser/Thr phosphatase in the brain, is involved in a number of signalling pathways and functions, including the regulation of crucial proteins for neurodegeneration, such as alpha-synuclein, tau and LRRK2. Here, we report the identification of variants in the PTPA/PPP2R4 gene, encoding a major PP2A activator, in two families with early-onset parkinsonism and intellectual disability. We carried out clinical studies and genetic analyses, including genome-wide linkage analysis, whole-exome sequencing, and Sanger sequencing of candidate variants. We next performed functional studies on the disease-associated variants in cultured cells and knock-down of ptpa in Drosophila melanogaster. We first identified a homozygous PTPA variant, c.893T>G (p.Met298Arg), in patients from a South African family with early-onset parkinsonism and intellectual disability. Screening of a large series of additional families yielded a second homozygous variant, c.512C>A (p.Ala171Asp), in a Libyan family with a similar phenotype. Both variants co-segregate with disease in the respective families. The affected subjects display juvenile-onset parkinsonism and intellectual disability. The motor symptoms were responsive to treatment with levodopa and deep brain stimulation of the subthalamic nucleus. In overexpression studies, both the PTPA p.Ala171Asp and p.Met298Arg variants were associated with decreased PTPA RNA stability and decreased PTPA protein levels; the p.Ala171Asp variant additionally displayed decreased PTPA protein stability. Crucially, expression of both variants was associated with decreased PP2A complex levels and impaired PP2A phosphatase activation. PTPA orthologue knock-down in Drosophila neurons induced a significant impairment of locomotion in the climbing test. This defect was age-dependent and fully reversed by L-DOPA treatment. We conclude that bi-allelic missense PTPA variants associated with impaired activation of the PP2A phosphatase cause autosomal recessive early-onset parkinsonism with intellectual disability. Our findings might also provide new insights for understanding the role of the PP2A complex in the pathogenesis of more common forms of neurodegeneration.

Published

2023

6. Interactome mapping reveals a role for LRP10 in autophagy and NDFIP1-mediated alpha-synuclein secretion

Author

Carreras Mascaro, Ana, primary, Ferraro, Federico, additional, Boumeester, Valerie, additional, Breedveld, Guido, additional, Dekkers, Dick H.W, additional, Vergouw, Leonie, additional, de Jong, Frank Jan, additional, Demmers, Jeroen AA, additional, Bonifati, Vincenzo, additional, and Mandemakers, Wim, additional

Published

2023

7. LRP10 as a novel α-synuclein regulator in Lewy body diseases

Author

Carreras Mascaro, Ana, primary, Grochowska, Martyna M., additional, Boumeester, Valerie, additional, Dits, Natasja F. J., additional, Bilgiç, Ece Naz, additional, Breedveld, Guido J., additional, Vergouw, Leonie, additional, de Jong, Frank Jan, additional, van Royen, Martin E., additional, Bonifati, Vincenzo, additional, and Mandemakers, Wim, additional

Published

2023

8. LRP10 interacts with SORL1 in the intracellular vesicle trafficking pathway in non-neuronal brain cells and localises to Lewy bodies in Parkinson's disease and dementia with Lewy bodies

Author

Grochowska, Martyna M, Carreras Mascaro, Ana, Boumeester, Valerie, Natale, Domenico, Breedveld, Guido J, Geut, Hanneke, van Cappellen, Wiggert A, Boon, Agnita J W, Kievit, Anneke J A, Sammler, Esther, Netherlands Brain Bank, Cortelli, Pietro, Parchi, Piero, Alessi, Dario R, van de Berg, Wilma D J, Bonifati, Vincenzo, Mandemakers, Wim, Grochowska, Martyna M, Carreras Mascaro, Ana, Boumeester, Valerie, Natale, Domenico, Breedveld, Guido J, Geut, Hanneke, van Cappellen, Wiggert A, Boon, Agnita J W, Kievit, Anneke J A, Sammler, Esther, Netherlands Brain Bank, Cortelli, Pietro, Parchi, Piero, Alessi, Dario R, van de Berg, Wilma D J, Bonifati, Vincenzo, and Mandemakers, Wim

Abstract

Loss-of-function variants in the low-density lipoprotein receptor-related protein 10 (LRP10) gene have been associated with autosomal-dominant Parkinson's disease (PD), PD dementia, and dementia with Lewy bodies (DLB). Moreover, LRP10 variants have been found in individuals diagnosed with progressive supranuclear palsy and amyotrophic lateral sclerosis. Despite this genetic evidence, little is known about the expression and function of LRP10 protein in the human brain under physiological or pathological conditions. To better understand how LRP10 variants lead to neurodegeneration, we first performed an in-depth characterisation of LRP10 expression in post-mortem brains and human-induced pluripotent stem cell (iPSC)-derived astrocytes and neurons from control subjects. In adult human brain, LRP10 is mainly expressed in astrocytes and neurovasculature but undetectable in neurons. Similarly, LRP10 is highly expressed in iPSC-derived astrocytes but cannot be observed in iPSC-derived neurons. In astrocytes, LRP10 is present at trans-Golgi network, plasma membrane, retromer, and early endosomes. Interestingly, LRP10 also partially co-localises and interacts with sortilin-related receptor 1 (SORL1). Furthermore, although LRP10 expression and localisation in the substantia nigra of most idiopathic PD and DLB patients and LRP10 variant carriers diagnosed with PD or DLB appeared unchanged compared to control subjects, significantly enlarged LRP10-positive vesicles were detected in a patient carrying the LRP10 p.Arg235Cys variant. Last, LRP10 was detected in Lewy bodies (LB) at late maturation stages in brains from idiopathic PD and DLB patients and in LRP10 variant carriers. In conclusion, high LRP10 expression in non-neuronal cells and undetectable levels in neurons of control subjects indicate that LRP10-mediated pathogenicity is initiated via cell non-autonomous mechanisms, potentially involving the interaction of LRP10 with SORL1 in vesicle trafficking pathways. Togeth

Published

2021

9. LRP10 interacts with SORL1 in the intracellular vesicle trafficking pathway in non-neuronal brain cells and localises to Lewy bodies in Parkinson’s disease and dementia with Lewy bodies

Author

Grochowska, Martyna M., Carreras Mascaro, Ana, Boumeester, Valerie, Natale, Domenico, Breedveld, Guido J., Geut, Hanneke, van Cappellen, Wiggert A., Boon, Agnita J.W., Kievit, Anneke J.A., Sammler, Esther, Parchi, Piero, Cortelli, Pietro, Alessi, Dario R., van de Berg, Wilma D.J., Bonifati, Vincenzo, Mandemakers, Wim, Grochowska, Martyna M., Carreras Mascaro, Ana, Boumeester, Valerie, Natale, Domenico, Breedveld, Guido J., Geut, Hanneke, van Cappellen, Wiggert A., Boon, Agnita J.W., Kievit, Anneke J.A., Sammler, Esther, Parchi, Piero, Cortelli, Pietro, Alessi, Dario R., van de Berg, Wilma D.J., Bonifati, Vincenzo, and Mandemakers, Wim

Abstract

Loss-of-function variants in the low-density lipoprotein receptor-related protein 10 (LRP10) gene have been associated with autosomal-dominant Parkinson’s disease (PD), PD dementia, and dementia with Lewy bodies (DLB). Moreover, LRP10 variants have been found in individuals diagnosed with progressive supranuclear palsy and amyotrophic lateral sclerosis. Despite this genetic evidence, little is known about the expression and function of LRP10 protein in the human brain under physiological or pathological conditions. To better understand how LRP10 variants lead to neurodegeneration, we first performed an in-depth characterisation of LRP10 expression in post-mortem brains and human-induced pluripotent stem cell (iPSC)-derived astrocytes and neurons from control subjects. In adult human brain, LRP10 is mainly expressed in astrocytes and neurovasculature but undetectable in neurons. Similarly, LRP10 is highly expressed in iPSC-derived astrocytes but cannot be observed in iPSC-derived neurons. In astrocytes, LRP10 is present at trans-Golgi network, plasma membrane, retromer, and early endosomes. Interestingly, LRP10 also partially co-localises and interacts with sortilin-related receptor 1 (SORL1). Furthermore, although LRP10 expression and localisation in the substantia nigra of most idiopathic PD and DLB patients and LRP10 variant carriers diagnosed with PD or DLB appeared unchanged compared to control subjects, significantly enlarged LRP10-positive vesicles were detected in a patient carrying the LRP10 p.Arg235Cys variant. Last, LRP10 was detected in Lewy bodies (LB) at late maturation stages in brains from idiopathic PD and DLB patients and in LRP10 variant carriers. In conclusion, high LRP10 expression in non-neuronal cells and undetectable levels in neurons of control subjects indicate that LRP10-mediated pathogenicity is initiated via cell non-autonomous mechanisms, potentially involving the interaction of LRP10 with SORL1 in vesicle trafficking pathways. Togeth

Published

2021

10. Hexb enzyme deficiency leads to lysosomal abnormalities in radial glia and microglia in zebrafish brain development

Author

Kuil, Laura E., primary, López Martí, Anna, additional, Carreras Mascaro, Ana, additional, Bosch, Jeroen C., additional, Berg, Paul, additional, Linde, Herma C., additional, Schoonderwoerd, Kees, additional, Ruijter, George J. G., additional, and Ham, Tjakko J., additional

Published

2019

11. Group 2 Innate Lymphoid Cells in Human Respiratory Disorders

Author

van der Ploeg, Esmee K., primary, Carreras Mascaro, Ana, additional, Huylebroeck, Danny, additional, Hendriks, Rudi W., additional, and Stadhouders, Ralph, additional

Published

2019

12. LRP10 genetic variants in familial Parkinson's disease and dementia with Lewy bodies: a genome-wide linkage and sequencing study

Author

Quadri, Marialuisa, primary, Mandemakers, Wim, additional, Grochowska, Martyna M, additional, Masius, Roy, additional, Geut, Hanneke, additional, Fabrizio, Edito, additional, Breedveld, Guido J, additional, Kuipers, Demy, additional, Minneboo, Michelle, additional, Vergouw, Leonie J M, additional, Carreras Mascaro, Ana, additional, Yonova-Doing, Ekaterina, additional, Simons, Erik, additional, Zhao, Tianna, additional, Di Fonzo, Alessio B, additional, Chang, Hsiu-Chen, additional, Parchi, Piero, additional, Melis, Marta, additional, Correia Guedes, Leonor, additional, Criscuolo, Chiara, additional, Thomas, Astrid, additional, Brouwer, Rutger W W, additional, Heijsman, Daphne, additional, Ingrassia, Angela M T, additional, Calandra Buonaura, Giovanna, additional, Rood, Janneke P, additional, Capellari, Sabina, additional, Rozemuller, Annemieke J, additional, Sarchioto, Marianna, additional, Fen Chien, Hsin, additional, Vanacore, Nicola, additional, Olgiati, Simone, additional, Wu-Chou, Yah-Huei, additional, Yeh, Tu-Hsueh, additional, Boon, Agnita J W, additional, Hoogers, Susanne E, additional, Ghazvini, Mehrnaz, additional, IJpma, Arne S, additional, van IJcken, Wilfred F J, additional, Onofrj, Marco, additional, Barone, Paolo, additional, Nicholl, David J, additional, Puschmann, Andreas, additional, De Mari, Michele, additional, Kievit, Anneke J, additional, Barbosa, Egberto, additional, De Michele, Giuseppe, additional, Majoor-Krakauer, Danielle, additional, van Swieten, John C, additional, de Jong, Frank J, additional, Ferreira, Joaquim J, additional, Cossu, Giovanni, additional, Lu, Chin-Song, additional, Meco, Giuseppe, additional, Cortelli, Pietro, additional, van de Berg, Wilma D J, additional, Bonifati, Vincenzo, additional, Quadri, Marialuisa, additional, Kievit, Anneke J.A., additional, Boon, Agnita J.W., additional, Rood, Janneke P.A, additional, Vergouw, Leonie J.M., additional, de Jong, Frank J., additional, van Swieten, John C., additional, Mattace-Raso, Francesco U.S., additional, Leenders, Klaus L., additional, Ferreira, Joaquim J., additional, Ygland, Emil, additional, Nilsson, Christer, additional, Chien, Hsin F., additional, Bannach Jardim, Laura, additional, Rieder, Carlos R.M., additional, Lopiano, Leonardo, additional, Tassorelli, Cristina, additional, Pacchetti, Claudio, additional, Riboldazzi, Giulio, additional, Bono, Giorgio, additional, Comi, Cristoforo, additional, Padovani, Alessandro, additional, Borroni, Barbara, additional, Raudino, Francesco, additional, Fincati, Emiliana, additional, Tinazzi, Michele, additional, Bonizzato, Alberto, additional, Ferracci, Carlo, additional, Dalla Libera, Alessio, additional, Abbruzzese, Giovanni, additional, Marconi, Roberto, additional, Guidi, Marco, additional, Fabbrini, Giovanni, additional, Berardelli, Alfredo, additional, Stocchi, Fabrizio, additional, Vacca, Laura, additional, Picillo, Marina, additional, Dell'Aquila, Claudia, additional, Iliceto, Gianni, additional, Toni, Vincenzo, additional, Trianni, Giorgio, additional, Gagliardi, Monica, additional, Annesi, Grazia, additional, Quattrone, Aldo, additional, Saddi, Valeria, additional, Cossu, Gianni, additional, and Melis, Maurizio, additional

Published

2018

13. LRP10 genetic variants in familial Parkinson's disease and dementia with Lewy bodies: a genome-wide linkage and sequencing study

Author

Quadri, Marialuisa, Mandemakers, Wim, Grochowska, Martyna M, Masius, Roy, Geut, H., Fabrizio, Edito, Breedveld, Guido J, Kuipers, Demy, Minneboo, Michelle, Vergouw, Leonie J M, Carreras Mascaro, Ana, Yonova-Doing, Ekaterina, Simons, Erik, Zhao, Tianna, Di Fonzo, Alessio B, Chang, Hsiu-Chen, Parchi, Piero, Melis, Marta, Correia Guedes, Leonor, Criscuolo, Chiara, Thomas, Astrid, Brouwer, Rutger W W, Heijsman, Daphne, Ingrassia, Angela M T, Calandra Buonaura, Giovanna, Rood, Janneke P, Capellari, Sabina, Rozemuller, Annemieke J, Sarchioto, Marianna, Fen Chien, Hsin, Vanacore, Nicola, Olgiati, Simone, Wu-Chou, Yah-Huei, Yeh, Tu-Hsueh, Boon, Agnita J W, Hoogers, Susanne E, Ghazvini, Mehrnaz, IJpma, Arne S, van IJcken, Wilfred F J, Onofrj, Marco, Barone, Paolo, Nicholl, David J, Puschmann, Andreas, De Mari, Michele, Kievit, Anneke J, Barbosa, Egberto, De Michele, Giuseppe, Majoor-Krakauer, Danielle, van Swieten, John C, de Jong, Frank J, International Parkinsonism Genetics Network, Quadri, Marialuisa, Mandemakers, Wim, Grochowska, Martyna M, Masius, Roy, Geut, H., Fabrizio, Edito, Breedveld, Guido J, Kuipers, Demy, Minneboo, Michelle, Vergouw, Leonie J M, Carreras Mascaro, Ana, Yonova-Doing, Ekaterina, Simons, Erik, Zhao, Tianna, Di Fonzo, Alessio B, Chang, Hsiu-Chen, Parchi, Piero, Melis, Marta, Correia Guedes, Leonor, Criscuolo, Chiara, Thomas, Astrid, Brouwer, Rutger W W, Heijsman, Daphne, Ingrassia, Angela M T, Calandra Buonaura, Giovanna, Rood, Janneke P, Capellari, Sabina, Rozemuller, Annemieke J, Sarchioto, Marianna, Fen Chien, Hsin, Vanacore, Nicola, Olgiati, Simone, Wu-Chou, Yah-Huei, Yeh, Tu-Hsueh, Boon, Agnita J W, Hoogers, Susanne E, Ghazvini, Mehrnaz, IJpma, Arne S, van IJcken, Wilfred F J, Onofrj, Marco, Barone, Paolo, Nicholl, David J, Puschmann, Andreas, De Mari, Michele, Kievit, Anneke J, Barbosa, Egberto, De Michele, Giuseppe, Majoor-Krakauer, Danielle, van Swieten, John C, de Jong, Frank J, and International Parkinsonism Genetics Network

Abstract

BACKGROUND: Most patients with Parkinson's disease, Parkinson's disease dementia, and dementia with Lewy bodies do not carry mutations in known disease-causing genes. The aim of this study was to identify a novel gene implicated in the development of these disorders.METHODS: Our study was done in three stages. First, we did genome-wide linkage analysis of an Italian family with dominantly inherited Parkinson's disease to identify the disease locus. Second, we sequenced the candidate gene in an international multicentre series of unrelated probands who were diagnosed either clinically or pathologically with Parkinson's disease, Parkinson's disease dementia, or dementia with Lewy bodies. As a control, we used gene sequencing data from individuals with abdominal aortic aneurysms (who were not examined neurologically). Third, we enrolled an independent series of patients diagnosed clinically with Parkinson's disease and controls with no signs or family history of Parkinson's disease, Parkinson's disease dementia, or dementia with Lewy bodies from centres in Portugal, Sardinia, and Taiwan, and screened them for specific variants. We also did mRNA and brain pathology studies in three patients from the international multicentre series carrying disease-associated variants, and we did functional protein studies in in-vitro models, including neurons from induced pluripotent stem-like cells.FINDINGS: Molecular studies were done between Jan 1, 2008, and Dec 31, 2017. In the initial kindred of ten affected Italian individuals (mean age of disease onset 59·8 years [SD 8·7]), we detected significant linkage of Parkinson's disease to chromosome 14 and nominated LRP10 as the disease-causing gene. Among the international series of 660 probands, we identified eight individuals (four with Parkinson's disease, two with Parkinson's disease dementia, and two with dementia with Lewy bodies) who carried different, rare, potentially pathogenic LRP10 variants; one carrier was

Published

2018

14. Group 2 Innate Lymphoid Cells in Human Respiratory Disorders.

Author

van der Ploeg, Esmee K., Carreras Mascaro, Ana, Huylebroeck, Danny, Hendriks, Rudi W., and Stadhouders, Ralph

Published

2020

15. deCLUTTER2+ - a pipeline to analyze calcium traces in a stem cell model for ventral midbrain patterned astrocytes.

Author

Grochowska MM, Ferraro F, Carreras Mascaro A, Natale D, Winkelaar A, Boumeester V, Breedveld GJ, Bonifati V, and Mandemakers W

Subjects

Humans, Astrocytes metabolism, Calcium metabolism, Mesencephalon metabolism, Cell Differentiation, Calcium, Dietary, Pluripotent Stem Cells metabolism, Parkinson Disease metabolism

Abstract

Astrocytes are the most populous cell type of the human central nervous system and are essential for physiological brain function. Increasing evidence suggests multiple roles for astrocytes in Parkinson's disease, nudging a shift in the research focus, which historically pivoted around ventral midbrain dopaminergic neurons (vmDANs). Studying human astrocytes and other cell types in vivo remains challenging. However, in vitro-reprogrammed human stem cell-based models provide a promising alternative. Here, we describe a novel protocol for astrocyte differentiation from human stem cell-derived vmDAN-generating progenitors. This protocol simulates the regionalization, gliogenic switch, radial migration and final differentiation that occur in the developing human brain. We characterized the morphological, molecular and functional features of these ventral midbrain patterned astrocytes with a broad palette of techniques and identified novel candidate midbrain-astrocyte specific markers. In addition, we developed a new pipeline for calcium imaging data analysis called deCLUTTER2+ (deconvolution of Ca2+ fluorescent patterns) that can be used to discover spontaneous or cue-dependent patterns of Ca2+ transients. Altogether, our protocol enables the characterization of the functional properties of human ventral midbrain patterned astrocytes under physiological conditions and in disease., Competing Interests: Competing interests V.B. received research grants from the Stichting ParkinsonFonds (the Netherlands) and from Alzheimer Nederland. V.B. also received honoraria from Elsevier Ltd for serving as co-Editor-in-Chief of Parkinsonism & Related Disorders. The other authors declare no conflicts of interest or competing interests., (© 2023. Published by The Company of Biologists Ltd.)

Published

2023